NL1024986C2 - Thermostat is for use in heating or air conditioning installation and comprises holder for manual adjustment by rotary knob of process variable, in particular temperature in a room - Google Patents

Abstract

Thermostat is for use in a heating or air conditioning installation and comprises a holder (1) for manual adjustment by rotary knob (2) of a process variable, in particular the temperature in a room. It contains detection devices for the rotation speed of the rotary knob. An adjustment arrangement is provided for a predetermined reference value of the process variable if the rotation speed of the rotary knob exceeds a predetermined limit value. An electronic processor connected has a display (3) on which the adjusted temperature, the measured temperature and possible other data can be reproduced. The electronic processor can be connected to a central heating installation.

Description

• a »DEVICE FOR SETTING A PROCESS VARIABLE, SUCH AS A THERMOSTAT.

i

The invention relates to a device, in particular a thermostat for a heating device or air conditioning, comprising a holder with a rotary knob for manually setting a process variable, in particular the temperature in a room.

There are many types of thermostats with which, for example, the desired temperature in a living room can be set. Previously, many thermostats were mechanically implemented, with a glass balloon containing a drop of mercury mounted on a bi-metal, and the mercury drop due to a change in the position of the balloon caused by a change in the shape of the bi -metal as a result of a change in the ambient temperature, whether or not there is electrical contact between two poles. The bi-metal is connected to the rotary knob and the position of the bi-metal and the balloon mounted thereon, and thus the desired switching temperature of the heating installation, can be changed by rotating the rotary knob. The set temperature is indicated on a scale by a pointer connected to the rotary knob. 25

However, modern thermostats are often equipped with an electronic sensor, and are controlled by an electronic circuit. They are often also provided with additional setting options, such as presettable preferred temperatures and programmable circuit diagrams in which the heating can be set at different times to different temperatures. The thermostat is provided with various buttons for this purpose. For many people, however, such a thermostat is complicated to operate.

1024986 «2.

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Furthermore, it is difficult or impossible to operate in the dark or by visually impaired people. The object of the invention is to provide a device of the above-mentioned type which can be easily operated with a rotary knob.

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To that end, the device according to the invention further comprises detection means for detecting the rotational speed of the rotary knob, and setting means for setting a predetermined reference value of the process variable 10 if the rotational speed of the rotary knob exceeds a predetermined limit value. This allows the user, for example, to select a pre-set temperature as the switching temperature of the heating by simply giving a "sweeper" to the rotary knob, i.e. by rotating it uncontrollably at a relatively high speed.

This is also possible in the dark or when the user is visually impaired. From the then set reference temperature, the user can then raise or lower the desired temperature by rotating the rotary knob in a controlled manner, that is to say with a rotation speed that is below the limit value. The rotary knob is preferably rotatable an unlimited number of times about its axis in both directions, so that it is not blocked during use.

25

Preferably, the detection means can further detect the direction of rotation of the rotary knob. In a first preferred embodiment, the setting means can switch off the process or set a predetermined reference value of the process variable in dependence on the detected direction of rotation.

In a second preferred embodiment, the setting means can set a first predetermined reference value of the process variable or a second predetermined reference value of the process variable in dependence on the detected rotation direction, the second reference value being higher than the first reference value. If the detection means herein detect a direction of rotation that is directed counterclockwise, the adjustment means preferably sets the lower first predetermined reference value. If the device is a thermostat for a heating device or an air conditioning, the first predetermined reference value is preferably between 10-17 * C / (e.g. 15 ° C or 60 * F), and the second predetermined reference value is preferably between 18-25 * C (e.g. 20 'C or 70' F).

15

The detection means may further preferably detect a rotation angle of the rotary knob, wherein if the detection means detect a rotation speed that is lower than the predetermined limit value, the setting means increase or decrease the process value to be set by a value that is proportional to the detected rotation direction is with the detected rotation angle. The rotary knob or pulse generator is also preferably provided with click positions ("detents") which mark angular rotations corresponding to a part of a unit or a whole number of units of the process variable to be set, for example a degree Celsius or a degree Fahrenheit.

The detection means preferably comprise a rotary pulse encoder ("rotary encoder"), which converts a rotation of an axis to which the rotary knob is connected into a digital signal. Such encoders are components that are commercially available, for example from the Bouras brand * 1024988 4 (Bourns Ine., Riverside CA, USA), and can be integrated into the electronic circuit of the thermostat, which can further comprise an electronic processing unit which further detection means for processing and analyzing the digital signal and adjusting means for adjusting the desired temperature. These encoders can provide the functionality described above through the digital signal output.

The invention will be explained with reference to the figure on the basis of an exemplary embodiment.

According to the figure, a thermostat comprises a substantially cylindrical holder 1 in which an electronic circuit is accommodated (not shown) which comprises a rotary encoder, for example of the brand Bourns®, type EPS, whose electrical outputs are connected to an electronic processing unit. The axis of the rotary encoder is furthermore mechanically connected to an annular rotary knob 2, which can rotate unlimited. A display 3 is connected to the electronic processing unit, on which the set temperature, the measured temperature and any other information can be displayed. The switching output of the electronic processing unit can be connected to a central heating installation.

The processing unit calculates the rotational speed, the angle of rotation and the direction of rotation of the rotary encoder (at least a representation thereof), and sets a predetermined temperature if the rotational speed of the rotary knob exceeds a predetermined limit value. If the direction of rotation is counter-clockwise, for example, 15 ° C or 60 ° F is set or the central heating 1024903 is completely switched off, and if the direction of rotation is clockwise, for example, 20 ° C or 70 ° F is set. The limit value for the rotational speed and the preset temperatures are pre-entered in a memory of the processing unit 5 and can optionally be changed.

From the set reference temperature, the user can then raise or lower the desired temperature by rotating the rotary knob in a controlled manner. The dial. 10 or pulse generator is provided for this purpose with click positions, which mark rotations corresponding to, for example, a degree Celsius or a degree Fahrenheit. As long as the detected rotation speed is lower than the limit value, the processing unit increases or decreases the switching temperature by a value that is proportional to the detected rotation angle.

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Claims (10)

Device, in particular a thermostat for a heating device or air conditioning, comprising a holder (1) with a rotary knob (2) for manually setting a process variable, in particular the temperature in a room, characterized in that the device further comprises detection means for detecting the rotational speed of the rotary knob (2), and setting means for setting a predetermined reference value of the process variable if the rotational speed of the rotary knob (2) exceeds a predetermined limit value. 15 Device according to claim 1, wherein the rotary knob (2) can be rotated an unlimited number of times about its axis in both directions. Device according to claim 1 or 2, wherein the detection means can further detect the direction of rotation of the rotary knob (2) 4. Device as claimed in claim 1, 2 or 3, wherein the adjusting means can switch off the process to be controlled or set a predetermined reference value of the process variable in dependence on the detected direction of rotation. 30 5. Device as claimed in claim 1, 2 or 3, wherein the setting means can set a first predetermined reference value of the process variable or a second predetermined reference value of the process variable in dependence on the detected direction of rotation, wherein the second reference value is higher than the first 5 reference value. 6. Device as claimed in claim 5, wherein if the detection means detect a direction of rotation that is turned anti-clockwise, the setting means set the lower first predetermined reference value. 7. Device as claimed in claim 5 or 6, wherein the device is a thermostat, and wherein the first predetermined reference value is between 10-17 ° C, and the second predetermined reference value is between 18-25 ° C. Device as claimed in any of the foregoing claims 1-20, wherein the detection means comprise a rotary pulse generator or "rotary encoder", which converts a rotation of an axis to which the rotary knob (2) is connected into a digital signal. 9. Device as claimed in any of the foregoing claims 1-8, wherein the detection means can further detect an angle of rotation of the rotary knob (2), wherein if the detection means detect a rotation speed that is lower than the predetermined limit value, the adjustment means to be set increase or decrease the process value by a value of 10249R8 * ΐ depending on the detected direction of rotation that is proportional to the detected angle of rotation. Device as claimed in any of the foregoing claims 1-5, wherein the rotary knob (2) or pulse generator is provided with snap positions, which indicate angular rotations that correspond to a part of a unit or a whole number of units of the process variable to be set, for example a grade 10 centigrade or a grade Fahrenheit. "1024983